Publications

 

[Preprints] [Published] [Proceedings]

 

Preprints 

  1. N. K. H. Li, C. Spee, M. Hebenstreit, J. I. de Vicente, B. Kraus
    Identifying families out of mulitpartite states with non-trivial local entanglement transformations,
    arXiv:2302.03139 [quant-ph] (2023).

  2. J. Carrasco, M. Votto, V. Vitale, C. Kokail, A. Neven, P. Zoller, B. Vermersch, B. Kraus,
    Entanglement phase diagrams from partial transpose moments,

    arXiv:2212.10181 [quant-ph] (2022).

  3. R. Stricker, J. Carrasco, M. Ringbauer, L. Postler, M. Meth, C. Edmunds, P. Schindler, R. Blatt, P. Zoller, B. Kraus, T. Monz,
    Towards experimental classical verification of quantum computation,
    arXiv:2203.07395 [quant-ph] (2022).

  4. C. Spee, T. Kraft,
    Transformations in quantum networks via local operations assisted by finitely many rounds of classical communication,
    arXiv:2105.01090 [quant-ph] (2021).

  5. D. Sauerwein, K. Schwaiger, B. Kraus,
    Discrete And Differentiable Entanglement Transformations    ,
    arXiv:1808.02819 [quant-ph] (2018).



Published

  1. K. Hansenne, Z.-P. Xu, T. Kraft, O. Gühne,
    Symmetries in quantum networks leads to no-go theorems for entanglement distribution and to verification techniques,           Nature Communications 13, 496 (2022).

  2. M. Englbrecht, T. Kraft, B. Kraus,
    Transformations of Stabilizer States in Quantum Networks,
    Quantum 6, 846 (2022).

  3. D. González-Cuadra, T. V. Zache, J. Carrasco, B. Kraus, P. Zoller,
    Hardware efficient quantum simulation of non-abelian gauge theories with qudits on Rydberg platforms    ,
    Phys. Rev. Lett. 129, 160501 (2022).

  4. M. Hebenstreit, C. Spee, N. K. H. Li, B. Kraus, J. I. de Vicente,
    State transformations within entanglement classes containing permutation-symmetric states,
    Phys. Rev. A 105, 032458 (2022).

  5. V. Vitale, A. Elben, R. Kueng, A. Neven, J. Carrasco, B. Kraus, P. Zoller, P. Calabrese, B. Vermersch, M. Dalmonte,
    Symmetry-resolved dynamical purification in synthetic quantum matter,
    SciPost Phys. 12, 106 (2022). 

  6. M. Hebenstreit, D. Sauerwein, A. Molnar, J. I. Cirac, B. Kraus,
    Symmetries and local transformations of translationally invariant matrix product states,
    Phys. Rev. A 105, 032424 (2022).

  7. A. Neven, J. Carrasco, V. Vitale, C. Kokail, A. Elben, M. Dalmonte, P. Calabrese, P. Zoller, B. Vermersch, R. Kueng, B. Kraus,
    Symmetry-resolved entanglement detection using partial transpose moments,
    npj Qauntum Information 7, Article number: 152 (2021).

  8. A. Neven, D. Gunn, M. Hebenstreit, B. Kraus,
    Local Transformations of Multiple Multipartite States,
    SciPost Phys. 11, 042 (2021).     

  9. J. Carrasco, A. Elben, C. Kokail, B. Kraus, and P. Zoller,
    Theoretical and Experimental Perspectives of Quantum Verification,
    PRX Quantum 2, 010102 (2021).

  10. M. Hebenstreit, M. Englbrecht, C. Spee, J. I. de Vicente, B. Kraus,
    Measurement outcomes that do not occure and their role in entanglement transformations    ,
     New J. Phys. 23, 033046 (2021).

  11. A. Elben, R. Kueng, H.-Y. Huang, R. van Bijnen, C. Kokail, M. Dalmonte, P. Calabrese, B. Kraus, J. Preskill, P. Zoller, B. Vermersch,
    Mixed-State Entanglement from Local Randomized Measurements,
     Phys. Rev. Lett. 125, 200501 (2020).

  12. M. Hebenstreit, R. Jozsa, B. Kraus, S. Strelchuk,
    Computational power of matchgates with supplementary resources,
     Phys. Rev. A 102, 052604 (2020),
    Editor's Suggestion.

  13. O. Słowik, M. Hebenstreit, B. Kraus, A. Sawicki,
    A link between symmetries of critical states and the structure of SLOCC classes in multipartite systems,
    Quantum 4, 300 (2020).

  14. M. Englbrecht, B. Kraus,
    Symmetries and entanglement of stabilizer states,
    Phys. Rev. A 101, 062302 (2020).

  15. D. Sauerwein, A. Molnar, J. I. Cirac, B. Kraus,
    Matrix Product States: Entanglement, Symmetries, and State Transformations,
    Phys. Rev. Lett. 123, 170504 (2019).

  16. M. Hebenstreit, R. Jozsa, B. Kraus, S. Strelchuk, M. Yoganathan,
    All Pure Fermionic Non-Gaussian States Are Magic States for Matchgate Computations,
    Phys. Rev. Lett. 123, 080503 (2019).

  17. H. Yamasaki, A. Pirker, M. Murao, W. Dür, B. Kraus,
    Multipartite entanglement outperforming bipartite entanglement under limited quantum system sizes,
    Phys. Rev. A 98, 052313 (2018),
    Editor's Suggestion.

  18. D. Sauerwein, N. R. Wallach, G. Gour, B. Kraus,
    Transformations among Pure Multipartite Entangled States via Local Operations are Almost Never Possible,
    Phys. Rev. X 8, 031020 (2018).

  19. C. Spee, K. Schwaiger, G. Giedke, B. Kraus,
    Mode entanglement of Gaussian fermionic states,
    Phys. Rev. A 97, 042325 (2018),
    Editor's Suggestion.

  20. M. Hebenstreit, M. Gachechiladze, O. Gühne, B. Kraus,
    Coarse graining of entanglement classes in 2xmxn systems,
    Phys. Rev. A 97, 032330 (2018).

  21. K. Schwaiger, B. Kraus,
    Relations between bipartite entanglement measures,
    Quant. Inf. Comput. 18, 0085 (2018).

  22. G. Gour, B. Kraus, N. R. Wallach,
    Almost all multipartite qubit quantum states have trivial stabilizer,
    J. Math. Phys. 58, 092204 (2017).

  23. M. Hebenstreit, D. Alsina, J. I. Latorre, B. Kraus,
    Compressed quantum computation using a remote five-qubit quantum computer,
    Phys. Rev. A 95, 052339 (2017).

  24. D. Sauerwein, C. Macchiavello, L. Maccone, B. Kraus,
    Multipartite correlations in mutually unbiased bases,
    Phys. Rev. A 95, 042315 (2017).

  25. M. Hebenstreit, B. Kraus, L. Ostermann, H. Ritsch,
    Subradiance via Entanglement in Atoms with Several Independent Decay Channels,
    Phys. Rev. Lett. 118, 143602 (2017).

  26. C. Spee, J. I. de Vicente, D. Sauerwein, B. Kraus,
    Entangled Pure State Transformations via Local Operations Assisted by Finitely Many Rounds of Classical Communication,
    Phys. Rev. Lett.     118, 040503 (2017).

  27. J. I. de Vicente, C. Spee, D. Sauerwein, B. Kraus,
    Entanglement manipulation of multipartite pure states with finite rounds of classical communication,
    Phys. Rev. A     95, 012323 (2017).

  28. W. L. Boyajian, M. Skotiniotis, W. Dür, B. Kraus,
    Compressed quantum metrology for the Ising Hamiltonian,
     Phys. Rev. A. 94, 062326 (2016).

  29. M. Hebenstreit, C. Spee, B. Kraus,
    The MES of tripartite qutrit states and pure state separable transformations which are not possible via LOCC,
    Phys. Rev. A     93, 012339 (2016),
    Editor's Suggestion.

  30. C. Spee, J. I. de Vicente, B. Kraus,
    The maximally entangled set for 4-qubit states,
     J. Math. Phys. 57, 052201 (2016).

  31. D. Sauerwein, K. Schwaiger, M. Cuquet, J. I. de Vicente, B. Kraus,
     The source and accessible entanglement of few-body systems,
    Phys. Rev. A 92, 062340 (2015).

  32. K. Schwaiger, D. Sauerwein, M. Cuquet, J. I. de Vicente, B. Kraus,
    Operational multipartite entanglement measures,
    Phys. Rev. Lett. 115, 150502 (2015).

  33. W. L. Boyajian, B. Kraus,
    Compressed simulation of thermal and excited states of the 1-D XY-model,
    Phys. Rev. A 92, 032323 (2015).

  34. M. Skotiniotis, F. Fröwis, W. Dür, B. Kraus,
    Algebraic metrology: Pretty good states and bounds,
    Phys. Rev. A 92, 022323 (2015).

  35. F. Fröwis, M. Skotiniotis, B. Kraus, W. Dür,
    Optimal quantum states for frequency estimation,
    New J. Phys.     16, 083010 (2014).

  36. O. Gühne, M. Cuquet, F.E.S. Steinhoff, T. Moroder, M. Rossi, D. Bruß, B. Kraus, C. Macchiavello,
    Entanglement and nonclassical properties of hypergraph states,
    J. Phys. A: Math. Theor.     47, 335303 (2014).

  37. W. Dür, M. Skotiniotis, F. Fröwis, B. Kraus,
    Improved quantum metrology using quantum error-correction,
    Phys.     Rev. Lett. 112, 080801 (2014).

  38. G. Giedke, B. Kraus,
    Gaussian local unitary equivalence of n-mode Gaussian states and Gaussian transformations by local operations with classical communication,
    Phys. Rev. A 89, 012335 (2014).

  39. W. Boyajian, V. Murg, B. Kraus,
    Compressed Simulation of evolutions of the XY-model,
    Phys. Rev. A 88, 052329 (2013).

  40. Ch. Spengler, B. Kraus,
    A graph state formalism for mutually unbiased bases,
     Phys. Rev. A 88, 052323 (2013).

  41. J. de Vicente, C. Spee, B. Kraus,
    Maximally entangled sets of multipartite states,
    Phys. Rev. Lett. 111, 110502 (2013).

  42. C. Spee, J. de Vicente, B. Kraus,
    Remote entanglement preparation,
    Phys. Rev. A 88, 010305(R) (2013).

  43. M. Skotiniotis, W. Dür, B. Kraus,
    Efficient quantum communication under collective noise,
    Quantum Information and Computation, 13, 3 & 4, 0290-0323 (2013).

  44. T. Carle, B. Kraus, W. Dür, J. I. de Vicente,
    Purification to Locally Maximally Entangleable States,
    Phys. Rev. A     87, 012328 (2013).

  45. J. I. de Vicente, T. Carle, C. Streitberger, B. Kraus,
    Complete set of operational measures for the characterization of 3-qubit entanglement,
    Phys. Rev. Lett.     108, 041805 (2012).

  46. B. Kraus,
    Compressed quantum simulation of the Ising model,
    Phys. Rev. Lett.     107, 250503 (2011).

  47. T. Carle, H. J. Briegel, B. Kraus,
    Decoherence of many-body systems due to many-body interactions,
    Phys. Rev. A     84, 012105 (2011).

  48. B. Kraus,
    Local unitary equivalence and entanglement of multipartite pure states,
    Phys. Rev. A 82, 032121 (2010).

  49. B. Kraus,
    Local unitary equivalence of multipartite pure states,
    Phys.     Rev. Lett. 104, 020504 (2010).

  50. R. Jozsa, B. Kraus, A. Miyake, J. Watrous,
    Matchgate and space-bounded quantum computations are equivalent,
    Proc. R. Soc. A     466, 809 (2010).

  51. C. Kruszynska and B. Kraus,
     Local entanglability and multipartite entanglement,
    Phys.     Rev. A 79, 052304 (2009).

  52. S. Diehl, A. Micheli, A. Kantian, B. Kraus, H. P. Büchler, P. Zoller,
    Quantum States and Phases in Driven Open Quantum Systems with Cold Atoms,
    Nature Physics     4, 878 (2008).

  53. B. Kraus, H. P. Büchler, S. Diehl, A. Kantian, A. Micheli, P. Zoller,
     Preparation of Entangled States by Quantum Markov Processes,
    Phys. Rev. A     78, 042307 (2008).

  54. C. Mora, H. Briegel, B. Kraus,
    Quantum Kolmogorov complexity and its applications,
    Int. J. Quant.     Inf. 5, 729 (2007).

  55. B. Kraus, C. Branciard, R. Renner,
    Security of quantum key distribution protocols using two-way classical communication or weak coherent pulses,
    Phys.     Rev. A 75, 012316 (2007).

  56. L. Hartmann, B. Kraus, H.-J. Briegel, W. Dür,
    Role of memory errors in quantum repeaters,
    Phys. Rev. A     75, 032310 (2007).

  57. N. Gisin, S. Fasel, B. Kraus, H. Zbinden, and G. Ribordy,
    Trojan Horse Attacks on Quantum Key Distribution Systems,
    Phys.     Rev. A 73, 022320 (2006).

  58. B. Kraus, W. Tittel, N. Gisin, M. Nilsson, S. Kröll, J. I. Cirac,
    Quantum memory for non-stationary light fields based on controlled reversible inhomogeneous broadening,
    Phys.     Rev. A 73, 020302 (2006).

  59. B. Kraus, N. Gisin, and R. Renner,
     Lower and Upper Bounds on the Secret-Key Rate for Quantum Key Distribution Protocols Using One-Way Classical Communication,
    Phys.     Rev. Lett. 95, 080501 (2005).

  60. C. Branciard, N. Gisin, B. Kraus, and V. Scarani,
    Security of two quantum cryptography protocols using the same four qubit states,
    Phys.     Rev. A 72, 032301 (2005).

  61. R. Renner, N. Gisin, and B. Kraus,
    Information-theoretic security proof for quantum-key-distribution protocols,
    Phys.     Rev. A 72, 012332 (2005).

  62. B. Kraus and J. I. Cirac,
    Discrete Entanglement Distribution with Squeezed Light,
    Phys.     Rev. Lett. 92, 13602 (2004).

  63. B. Kraus, K. Hammerer, G. Giedke, and J. I. Cirac,
    Entanglement generation and Hamiltonian simulation in continuous-variable systems,
    Phys.     Rev. A 67, 042314 (2003).

  64. B. Kraus, M. Lewenstein, and J. I. Cirac,
    Characterization of Distillable and Activatable States using Entanglement Witnesses,
    Phys.     Rev. A 65, 042327 (2002).

  65. G. Giedke, B. Kraus, M. Lewenstein, and J. I. Cirac,
    Entanglement Criteria for All Bipartite Gaussian States,
    Phys.     Rev. Lett. 87, 167904 (2001).

  66. G. Giedke, B. Kraus, M. Lewenstein, and J. I. Cirac,
    Separability Properties of Three-mode Gaussian States,
    Phys.     Rev. A 64, 052303 (2001).

  67. B. Kraus and J. I. Cirac,
    Optimal Creation of Entanglement Using a Two-qubit Gate,
    Phys.     Rev. A 63, 062309 (2001).

  68. J. I. Cirac, W. Dür, B. Kraus, and M. Lewenstein,
    Entangling Operations and Their Implementation Using a Small Amount of Entanglement,
    Phys.     Rev. Lett. 86, 544 (2001).

  69. M. Lewenstein, B. Kraus, P. Horodecki, and J. I. Cirac,
    Characterization of Separable States and Entanglement Witnesses,
    Phys.     Rev. A 63, 044304 (2001).

  70. M. Lewenstein, D. Bruss, J. I. Cirac, B. Kraus, M. Küs, J. Samsonowicz, A. Sanpera, and R. Tarrach,
    Separability and Distillability in Composite Quantum Systems-a Primer,
    J. Mod. Opt.     47, 2481 (2000).

  71. M. Lewenstein, B. Kraus, J. I. Cirac, and P. Horodecki,
    Optimization of Entanglement Witnesses,
    Phys. Rev. A     62, 052310 (2000).

  72. B. Kraus, J. I. Cirac, S. Karnas, and M. Lewenstein,
    Separability in 2xN Composite Quantum Systems,
    Phys. Rev. A     61, 062302 (2000).



 Proceedings 

  1. C. Spee, J. I. de Vicente, B. Kraus,
    Few-body entanglement manipulation,
     Quantum [Un]Speakables II, edited by R. Bertlmann and A. Zeilinger (Springer, 2017), pp. 365-380; arXiv:quant-ph/1504.02643 (2015).

  2.  B. Kraus,
    Compressed quantum simulations,
    AIP proceedings 1633, 131, Eleventh International Conference on Quantum Communication, Measurement and Computation, (QCMC 2012), edited by H. J. Schmiedmayer, Ph. Walther.

  3.  B. Kraus, G. Giedke, M. Lewenstein, and J. I. Cirac,
    Entanglement Properties of Gaussian States,
    Fort.     Phys. 51 (4-5), p. 305 (2003).

  4.  D. Bruss, J. I. Cirac, P. Horodecki, F. Hulpke, B. Kraus, M. Lewenstein, and A. Sanpera,
    Reflections upon Separability and Distillability,
    J. Mod. Opt.     49, p. 1399-1418 (2002).

  5.  B. Kraus, W. Dür, G. Vidal, J. I. Cirac, M. Lewenstein, N. Linden, and S. Popescu,
    Entanglement Capability of Two-qubit Operations,
    Z. Naturforsch.     56 a, p. 91 (2001).

  6.  G. Giedke, B. Kraus, L.-M. Duan, P. Zoller, M. Lewenstein, and J. I. Cirac,
    Separability and Distillability of Gaussian states - the Complete Story,
    Fort.     Phys. 49, p. 973 (2001).

  7.  B. Kraus, P. Törmä,
    Transition phenomena in networks of quantum systems,
    Quantum Communication, Computing, and Measurement     2, p. 347 (2000).

 

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